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市場調查報告書

用於包裝之生物高分子市場(2010〜2014年)

Biopolymers in Packaging - 2010 to 2014

出版商 Allied Development Corp.
出版日期 2010年01月 商品編碼 111634
內容資訊 英文 310 pages
價格
US $ 4995 Hard Copy (Single License)
US $ 4995 PDF by E-mail (Single License)
US $ 7795 Hard Copy (Corporate License)
US $ 7795 PDF by E-mail (Corporate License)


用於包裝之生物高分子市場(2010〜2014年) 是由出版商Allied Development Corp.在2010年01月所出版的。 這份英文市場調查報告書包含310 pages 價格從美金4995起跳。

簡介

本研究報告調查全球高分子市場中,整體消費量與用於包裝之消費量,以及其製造技術、生產能力、加工技術等。並分析市場促進因素、提供市場預測、生展量、價格等市場數據。內容摘記如下。

第1章 序論

第2章 研究摘要

第3章 技術

  • 原材料
  • 單分子與高分子
  • 包裝用用加工
  • EOL選項
  • 研究開發
  • 生物高分子的生産能力

第4章 經濟、對環境的影響

  • 經濟
  • 對環境的影響

第5章 市場趨勢/預測

  • 全球生物高分子市場
  • 生物高分子用於包裝:市場促進因素、趨勢
  • 聚乳酸(PLA)
  • PHA
  • PTT
  • PET
  • PU
  • PE
  • PVC
  • CE
  • TPS
  • 其他
  • 結論
  • 用於包裝之生物高分子消耗量:植物來源別
  • 用於包裝之生物高分子消耗量:終端使用別
  • 用於包裝之生物高分子消耗量:包裝種類別
  • 用於包裝之生物高分子消耗量:地區別

第6章 生産企業檔案

第7章 術語

圖表

目錄

Abstract

“Biopolymers in Packaging” is a global study of the biopolymer industry. It first examines total biopolymer consumption, then focuses on biopolymer consumption in packaging, which comprises the majority of the research in the study.

Suppliers, converters, and users around the globe are making huge investments in biopolymers, which will impact every facet of the packaging industry. As a result, biopolymer consumption will increase more than 40% per year during the next five years.

“Biopolymers in Packaging” evaluates each biopolymer through its manufacturing technology, production capacity, converting technology, market drivers, consumption, and market projections. The market data includes volume, price, and value projections for each biopolymer.

Features

  • Publication date: JAN 25, 2010
  • Report Length: 310 pages

Table of Contents

Section I:

  • Introduction
    • A. Study purpose
    • B. Key definitions
      • 1. Biopolymers
      • 2. Synthetic polymers
      • 3. Thermoplastic property
      • 4. Biodegradability and compostability
    • C. Study organization
    • D. Geographic regions
    • E. Study methodology
    • F. Conventions

Section II:

  • Executive Summary
    • A. Technology
      • 1. Raw materials
      • 2. Production processes
      • 3. Biopolymer processing and product performance
      • 4. End-of-life alternatives
      • 5. Biopolymer capacity
    • B. Economic and environmental analysis
      • 1. Economics
      • 2. Environmental
    • C. Market trends and drivers
      • 1. Greenhouse gas reduction
      • 2. Renewable sourcing
      • 3. Biodegradability
      • 4. Recyclability
      • 5. Drop-in replacements
      • 6. Synthetic polymer prices
    • D. Market projection
      • 1. Global biopolymer resin consumption
      • 2. Biopolymer consumption in packaging segmented by plant source
      • 3. Biopolymer consumption in packaging segmented by end-use
      • 4. Biopolymer consumption in packaging segmented by package type
      • 5. Biopolymer consumption in packaging by geographic region

Section III:

  • Technology
    • A. Raw materials
      • 1. Starches
      • 2. Sugars
      • 3. Plant oils
      • 4. Proteins
      • 5. Cellulose
    • B. Monomers and polymers
      • 1. Polylactic acid (PLA)
      • 2. Polyhydroxyalkanoate (PHA)
      • 3. Polyethylene terephthalate (PET)
      • 4. Polytrimethylene terephthalate (PTT)
      • 5. Polyurethane (PU)
      • 6. Polyethylene (PE)
      • 7. Polyvinyl chloride (PVC)
      • 8. Cellulose ester (CE)
      • 9. Thermoplastic starch (TPS)
    • C. Converting to packaging
      • 1. Polylactic acid (PLA)
      • 2. Thermoplastic starch (TPS)
      • 3. Polyhydroxyalkanoate (PHA)
    • D. End-of-life options
      • 1. Biodegradability
      • 2. Composting
      • 3. Global compostable certifications
      • 4. Industrial and home composts
      • 5. Biopolymer compostability
      • 6. Composting alternatives
    • E. Research and development
      • 1. Improve biopolymer performance
      • 2. Reduced production cost
      • 3. Improved environmental metrics
      • 4. Other
    • F. Biopolymer Production Capacities
      • 1. Polylactic acid (PLA)
      • 2. Polyhydroxyalkanoate (PHA)
      • 3. Polytrimethylene terephthalate (PTT)
      • 4. Polyethylene terephthalate (PET)
      • 5. Polyurethane (PU)
      • 6. Polyethylene (PE)
      • 7. Polyvinyl chloride (PVC)
      • 8. Cellulose ester (CE)
      • 9. Thermoplastic starch (TPS)

Section IV:

  • Economic and Environmental Impact
    • A. Economics
      • 1. Economy of scale
      • 2. Pricing strategy
      • 3. Raw material costs
    • B. Environmental impact
      • 1. Life cycle analysis
      • 2. Projection
      • 3. End-of-life alternatives

Section V:

  • Market Trends/Projections
    • A. Global biopolymer market
      • 1. Polylactic acid (PLA)
      • 2. Polyhydroxyalkonate (PHA)
      • 3. Polyurethane (PU)
      • 4. Polytrimethylene terephthalate (PTT)
      • 5. Polyethylene terephthalate (PET)
      • 6. Polyethylene (PE)
      • 7. Polyvinyl chloride (PVC)
      • 8. Cellulose ester (CE)
      • 9. Thermoplastic starch (TPS)
      • 10. Other
    • B. Biopolymers in packaging - market drivers and trends
      • 1. Renewable sourcing
      • 2. Biodegradability
      • 3. Compostable certifications
      • 4. Legislation
      • 5. Environmental strategy
      • 6. End-of-life alternatives
      • 7. Manufacturing cost
      • 8. Drop-in replacements
      • 9. Consumer preference
      • 10. Land use competition
      • 11. Genetic research
      • 12. Joint ventures
      • 13. Environmental performance
      • 14. Controlled waste markets
      • 15. Market specific drivers
    • C. Polylactic Acid (PLA)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. PLA consumption in packaging . value
      • 5. PLA consumption in packaging segmented by end-use
      • 6. PLA consumption in packaging segmented by package type
    • D. Polyhydroxyalkonates (PHA)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. PHA consumption in packaging . value
      • 5. PHA consumption in packaging segmented by package type
    • E. Polytrimethylene terephthalate (PTT)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. Bio-PTT consumption in packaging . value
      • 5. Additional projections
    • F. Polyethylene terephthalate (PET)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. Bio-PET packaging value
      • 5. Additional projections
    • G. Polyurethane (PU)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. Bio-PU consumption in packaging . value
      • 5. Additional projections
    • H. Polyethylene (PE)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. Bio-polyethylene consumption in packaging . value
      • 5. Bio-PE consumption in packaging segmented by package type
    • I. Polyvinyl chloride (PVC)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. Bio-PVC consumption in packaging . value
      • 5. Additional projections
    • J. Cellulose esters (CE)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. Packaging consumption value
      • 5. Cellulose ester consumption in packaging by package type
    • K. Thermoplastic starch (TPS)
      • 1. Current status
      • 2. Projection
      • 3. Supplier sales
      • 4. TPS consumption in packaging . value
      • 5. TPS consumption in packaging segmented by package type
    • L. Other
      • 1. Current status and projections
      • 2. Packaging consumption value
    • M. Summary
      • 1. Packaging consumption summary
      • 2. Biopolymer sales summary segmented by supplier
      • 3. Biopolymer consumption in packaging . value summary
    • N. Biopolymer consumption in packaging by plant source
      • 1. Corn
      • 2. Other starch plants
      • 3. Sugar cane
      • 4. Other sugar plants
      • 5. Soybean
      • 6. Other oil based plants
      • 7. Other
    • O. Biopolymer consumption in packaging segmented by end-use
      • 1. Retail food
      • 2. Retail non-food
      • 3. Foodservice
      • 4. Other
    • P. Biopolymer consumption in packaging by package type
      • 1. Trays and bowls
      • 2. Pots
      • 3. Flexible film and lidstock
      • 4. Bottles, jars, and tubes
      • 5. Bags and pouches
      • 6. Waste bags
      • 7. Cups, cartons, and corrugated
      • 8. Transportation packaging
      • 9. Other
      • 10. Summary
    • Q. Biopolymer consumption in packaging by geographic region
      • 1. North America
      • 2. Europe
      • 3. Asia
      • 4. ROW

Section VI:

  • Producer Profiles

Section VII:

  • Glossary

10 Figures

62 Tables

Press Release

預估全球生物聚合物消費量今後連續5年將以年率40%以上的步調擴大

2010年02月05日

Global Information,Inc.已開始銷售由總公司設在明尼蘇達州的市場調查公司Allied Development Corp.發行之報告書「Biopolymers in Packaging - 2010 to 2014(包裝下的生物聚合物市場:2010∼2014年)」。

全球的供應商、加工業者及用戶正進行對生物聚合物領域的龐大投資,一般認為將影響到包裝市場的所有側面。結果,預估今後5年間生物聚合物的消費量將擴大到年率40%以上。

該書中,評估有關各種生物聚合物的製造技術、生產能力、加工技術、促進市場要因,消費量及市場預測。同時亦提供包含預測各生物聚合物的生產量、價格及生產額的市場資料。

調查對象的生物聚合物:

  • 多乳酸(PLA)
  • PHA
  • PTT
  • PET
  • 聚氨基甲酸酯 (PU)
  • 聚乙烯 (PE)
  • 聚氯乙烯(PVC)
  • 纖維素(CE)
  • TPS
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